Cross-sensitization and cross-tolerance between exogenous cannabinoid antinociception and endocannabinoid-mediated stress-induced analgesia
Autor: | Richard L. Suplita, Mark H. Neely, Anna M. Moise, Andrea G. Hohmann, Sarah A. Eisenstein |
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Rok vydání: | 2008 |
Předmět: |
Male
Time Factors Cannabinoid receptor Cannabinoid Receptor Modulators Morpholines medicine.medical_treatment Motor Activity Naphthalenes Pharmacology Drug Administration Schedule Article Open field Rats Sprague-Dawley Cellular and Molecular Neuroscience Piperidines Rimonabant Stress Physiological Drug tolerance Reaction Time medicine Animals Dronabinol Sensitization Pain Measurement Analgesics Analysis of Variance Electroshock Behavior Animal Drug Tolerance Benzoxazines Rats medicine.anatomical_structure Pyrazoles lipids (amino acids peptides and proteins) Cannabinoid Hypoactivity Psychology psychological phenomena and processes Endocannabinoids medicine.drug |
Zdroj: | Neuropharmacology. 54:161-171 |
ISSN: | 0028-3908 |
DOI: | 10.1016/j.neuropharm.2007.07.006 |
Popis: | Footshock stress induces both endocannabinoid mobilization and antinociception. The present studies investigated behavioral plasticity in cannabinoid antinociceptive mechanisms following repeated activation using the tail-flick test. A secondary objective was to ascertain whether blockade of stress antinociception by the CB(1) antagonist rimonabant could be attributed to changes in locomotor activity. The cannabinoid agonist WIN55,212-2 induced hypoactivity in the open field relative to vehicle-treated controls. By contrast, rimonabant, administered at a dose that virtually eliminated endocannabinoid-mediated stress antinociception, failed to alter locomotor behavior (i.e. time resting, ambulatory counts, distance traveled) in rats subjected to the same stressor. Rats exposed acutely to footshock were hypersensitive to the antinociceptive effects of WIN55,212-2 and Delta(9)-tetrahydrocannabinol (Delta(9)-THC). The converse was also true; acute Delta(9)-THC and WIN55,212-2 administration potentiated stress antinociception, suggesting a bidirectional sensitization between endocannabinoid-mediated stress antinociception and exogenous cannabinoid antinociception. Stress antinociception was also attenuated following chronic relative to acute treatment with WIN55,212-2 or Delta(9)-THC. Repeated exposure to footshock (3 min/day for 15 days), however, failed to attenuate antinociception induced by either footshock stress or WIN55,212-2. Our results demonstrate that endocannabinoid-mediated stress antinociception cannot be attributed to motor suppression. Our results further identify a functional plasticity of the cannabinoid system in response to repeated activation. The existence of cross-sensitization between endocannabinoid-mediated stress antinociception and exogenous cannabinoid antinociception suggests that these phenomena are mediated by a common mechanism. The observation of stress-induced hypersensitivity to effects of exogenous cannabinoids may have clinical implications for understanding marijuana abuse liability in humans. |
Databáze: | OpenAIRE |
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